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Sheet目录39

26页 27页 28页 29页 [30页]31页 32页 33页 34页

ADT7476A

http://onsemi.com

In high frequency mode, the PWM drive frequency is

always 22.5 kHz. When high frequency mode is enabled, the

dc bits are automatically asserted internally and do not need

to be changed.

Fan Speed Control

The ADT7476A controls fan speed using automatic and

manual modes:

?SPAN class="pst ADT7476AARQZ-R_2298076_3"> In automatic fan speed control mode, fan speed is

automatically varied with temperature and without CPU

intervention once initial parameters are set up. The

advantage is that if the system hangs, the user is

guaranteed that the system is protected from

overheating.

?SPAN class="pst ADT7476AARQZ-R_2298076_3"> In manual fan speed control mode, the ADT7476A

allows the duty cycle of any PWM output to be

adjusted manually. This can be useful if the user wants

to change fan speed in software or adjust PWM duty

cycle output for test purposes. Bits [7:5] of

control the behavior of each PWM output.

Table 42. PWM CONFIGURATION REGISTERS

(REG. 0x5C TO 0x5E)

Bit

Mnemonic

Description

[7:5]

BHVR

111 = Manual Mode

Once under manual control, each PWM output can be

manually updated by writing to Register 0x30 to

Programming the PWM Current Duty Cycle Registers

The PWM current duty cycle registers are 8-bit registers

that allow the PWM duty cycle for each output to be set

anywhere from 0% to 100% in steps of 0.39%. The value to

be programmed into the PWM

MIN

Value (decimal) = PWM

MIN

/0.39

Example 1:

For a PWM duty cycle of 50%,

Value (decimal) = 50/0.39 = 128 (decimal)

Value = 128 (decimal) or 0x80 (hex)

Example 2:

For a PWM duty cycle of 33%,

Value (decimal) = 33/0.39 = 85 (decimal)

Value = 85 (decimal) or 0x54 (hex)

Table 43. PWM CURRENT DUTY CYCLE REGISTERS

Description

Default

0x30

PWM1 Current Duty Cycle

0xFF (100%)

0x31

PWM2 Current Duty Cycle

0xFF (100%)

0x32

PWM3 Current Duty Cycle

0xFF (100%)

By reading the PWMx current duty cycle registers, the

user can keep track of the current duty cycle on each PWM

output, even when the fans are running in automatic fan

speed control mode or acoustic enhancement mode.

Programming T

RANGE

defines the distance between T

MIN

and 100%

PWM. For the ADT7467, ADT7468 and ADT7473,

RANGE

is effectively a slope. For the ADT7475

andADT7476A, T

RANGE

is no longer a slope, but defines

the temperature region where the PWM output linearly

ramps from PWM

MIN

to 100% PWM.

Figure 46. T

RANGE

MIN

PWM = 100%

PWM = 0%

PWM

MIN

PWM

MAX

RANGE

Programming the Automatic Fan Speed Control Loop

To understand the automatic fan speed control loop more

efficiently, it is recommended to use the ADT7476A

evaluation board and software while reading this section.

This section provides the system designer with an

understanding of the automatic fan control loop and

provides step-by-step guidance on effectively evaluating

and selecting critical system parameters. To optimize the

system characteristics, the designer needs to give some

thought to system configuration, including the number of

fans, where they are located, and what temperatures are

being measured in the particular system.

The mechanical or thermal engineer who is tasked with

the system thermal characterization should also be involved

at the beginning of the system development process.

Manual Fan Control Overview

In unusual circumstances, it can be necessary to manually

control the speed of the fans. Because the ADT7476A has an

SMBus interface, a system can read back all necessary

voltage, fan speed, and temperature information, and use

this information to control the speed of the fans by writing

to the PWM current duty cycle register (0x30, 0x31, and

0x32) of the appropriate fan. Bits [7:5] of the PWMx

configuration registers (0x5C, 0x5D, 0x5E) are used to set

fans up for manual control.

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